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ABSTRACT: Highly pathogenic porcine reproductive and respiratory syndrome virus (HP-PRRSV) is a variant of type 2 PRRSV with high virulence. Genetic and pathogenic characteristics of HP-PRRSV vary rapidly during the evolution. In this study, we determined the complete genome of a HP-PRRSV isolate designated 10FUJ-2, which shared 98.34 % nucleotide identity with HP-PRRSV reference strain JXA1. Genomic analyses by phylogenetic tree and recombination detection program confirmed 10FUJ-2 to be a recombinant with 09JS and JXA1 as potential parental viruses. Furthermore, we identified that 10FUJ-2 has high virulence as similar as the parental viruses by animal challenge study. In addition, we found that SY0909 was also a recombination virus probably from JXA1 and NT0801, which has been reported to be low pathogenic. Recombination analysis also revealed that Glycoproteins GP2 to GP5 of HP-PRRSV might contain major virulence determinants. Identification of two natural recombinants with different virulence supports the notion that recombination is a driving force affecting HP-PRRSV pathogenicity and a common mechanism contributing to HP-PRRSV evolution.
Virus Genes 02/2013; · 1.85 Impact Factor
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Jiajun Wu,
Nanhua Chen,
Wei Han,
Zhen Cao,
Xiaoyu Deng, Lilin Wang,
Xiuling Yu,
Zhi Zhou,
Xiangdong Li,
Jishu Shi,
Kegong Tian
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ABSTRACT: JXA1-P170 is an overattenuated highly pathogenic porcine reproductive and respiratory syndrome virus (HP-PRRSV) that has been passaged in vitro 170 times. Vaccination with JXA1-P170 cannot protect pigs against JXA1 challenge. Compared with the parental virus JXA1, JXA1-P170 contains 1 nucleotide (nt) deletion and 113 nt mutations leading to 59 amino acid substitutions. Here we announce the first complete genome sequence of the overattenuated HP-PRRSV.
Journal of Virology 06/2012; 86(11):6381-2. · 5.40 Impact Factor
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ABSTRACT: Highly pathogenic porcine reproductive and respiratory syndrome (HP-PRRS) initially emerged in China and currently prevails in other Asian countries as well, resulting in immense economic losses. HP-PRRS virus (HP-PRRSV) has undergone rapid evolution since its first recognition in 2006. To analyze the genomic and pathogenic characteristics of 2010 HP-PRRSV, we tested 919 clinical samples collected from China, Laos and Vietnam, sequenced 29 complete genomes of HP-PRRSV isolates, and determined the pathogenicity of seven HP-PRRS viruses isolated from 2006 to 2010. HP-PRRSV was detected from 45.2% (415/919) samples, while only 0.1% (1/919) was classical PRRSV, indicating that HP-PRRSV isolates with a unique discontinuous deletion of 30 amino acids (aa) in non-structural protein 2 (Nsp2) are still the predominant viruses. 2010 HP-PRRSV together with 2009 HP-PRRSV isolates form a new evolutionary branch based on phylogenetic analyses. The numbers of potential N-glycosylation sites are variable in major glycoprotein GP5 but are conserved in minor glycoproteins GP2, GP3 and GP4. Pathogenicity studies showed that HP-PRRS viruses isolated from 2006 to 2010 maintain similar level of high pathogenicity, which caused high fever (>41°C for at least four days), 100% morbidity, and 40-100% mortality in 4-10 weeks old pigs. Real time monitoring information from this study could help to understand the genetic and pathogenic evolution of HP-PRRSV and assist in the control of HP-PRRS in Asia.
Veterinary Microbiology 04/2012; 158(3-4):291-9. · 3.33 Impact Factor
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Zhi Zhou,
Jianqiang Ni,
Zhen Cao,
Xue Han,
Yingju Xia,
Zhanchao Zi,
Kun Ning,
Qi Liu,
Lin Cai,
Peng Qiu,
Xiaoyu Deng,
Dongmei Hu,
Qian Zhang,
Yunfeng Fan,
Jiajun Wu, Lilin Wang,
Miaojie Zhang,
Xiuling Yu,
Xinyan Zhai,
Kegong Tian
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ABSTRACT: A high-mortality swine disease, the highly pathogenic porcine reproductive and respiratory syndrome (HP-PRRS), reappeared in some regions of China in 2009. To explore the possible mechanisms underlying the emergence of HP-PRRSV and more fully understand the extent of the genetic diversity of this virus in China, the complete genome of 14 isolates from 10 provinces in China from 2009 were analyzed. Full-length genome sequencing analysis showed that the 14 isolates were closely related to HP-PRRSV, with 98.0-98.9% nucleotide similarity, although 2 of the 14 strains exhibited a new, discontinuous 29-amino acid deletion in the Nsp2 gene. Furthermore, amino acid analysis of the GP5 protein indicated that the 14 isolates had a concurrent mutation in a decoy epitope and different mutations in glycosylation sites. Additionally, the antigenic drift in GP3 and a 1-nucleotide deletion in both the 5'-UTR and 3'-UTR, which are found in almost all highly pathogenic Chinese PRRSV isolates, were examined in all 14 isolates. The phylogenetic analysis showed that the 14 strains belonged to the North American genotype and were clustered in a subgroup with other HP-PRRSV isolates that have been found in China since 2006. However, compared with other Chinese HP-PRRSV isolates collected in 2006-2008, the phylogenetic tree showed that the 14 isolates had a closer relationship with each other. These results indicated that HP-PRRSV remained an extensive pandemic, affecting swine farms in China in 2009 and revealed new genetic diversity.
Veterinary Microbiology 02/2011; 150(3-4):257-69. · 3.33 Impact Factor
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ABSTRACT: Porcine reproductive and respiratory syndrome (PRRS) has a major negative economic impact on the swine industry worldwide. During the investigation of PRRS virus (PRRSV) in mainland China, European genotype (EU, type 1) PRRSV isolates were detected in swine herds both with and without clinical symptoms. Two complete genome sequences for Chinese type 1 PRRSV isolates were identified from viruses isolated from lung tissue and sera. The two viruses, designated BJEU06-1 and NMEU09-1, produced cytopathic effects in primary porcine alveolar macrophages but not in Marc-145 cells, and had a mean diameter of 55 nm, as measured by transmission electron microscopy . Comparative sequence analysis revealed that they shared 87.0-91.5% and 58.0-58.2% identity with the EU and North American genotype (NA, type 2) prototypic strains LV and VR-2332, respectively. Remarkably, these isolates, characterized by concomitant deletions within non-structural protein 2 (Nsp2) and ORF3 hypervariable regions, have never been described. Phylogenetic trees showed that all of the novel Chinese isolates of European genotype are in the pan-European subtype 1 that is predominant in Europe. However, they evolved from different ancestors. These novel viruses are predicted to be products of the divergent evolution of ancestor PRRSV isolates introduced from Europe. This is the first report of type 1 PRRSV wild isolates being in mainland China. Our findings confirm that the Chinese type 1 PRRSV isolates originated from diverse progenitors and the type 1 and type 2 PRRSV isolates, having different biological properties, have coexisted on the Chinese mainland for several years.
Journal of General Virology 01/2011; 92(Pt 4):880-92. · 3.36 Impact Factor
